Fernandez-Cara, E. , MARÍN GAYTE, IRENE
Si
ESAIM-Control OPtim. Calc. Var.
Article
Científica
1.708
1.015
04/06/2021
000661575700003
This paper deals with the solution of some multi-objective optimal control problems for several PDEs: linear and semilinear elliptic equations and stationary Navier-Stokes systems. Specifically, we look for Nash equilibria associated with standard cost functionals. For linear and semilinear elliptic equations, we prove the existence of equilibria and we deduce related optimality systems. For stationary Navier-Stokes equations, we prove the existence of Nash quasi-equilibria, i.e. solutions to the optimality system. In all cases, we present some iterative algorithms and, in some of them, we establish convergence results. For the existence and characterization of Nash quasi-equilibria in the Navier-Stokes case, we use the formalism of Dubovitskii and Milyutin. In this context, we also present a finite element approximation and we illustrate the techniques with numerical experiments.
Elliptic PDEs; Navier-Stokes equations; optimal control; bi-objective problems; Nash equilibria; Dubovitskii-Milyutin formalism